CN104262530A

CN104262530A - Unmodified silica sol/polystyrene-acrylate nano core-shell emulsion and preparation method thereof

Info

Publication number: CN104262530A
Application number: CN201410488674.0A
Authority: CN
Inventors: 庞起; 章浩; 苏景富; 巫朝剑; 窦玉忠; 覃爱苗; 张利芳
Original assignee: GUANGXI ADOL PAINT INDUSTRY Co Ltd
Current assignee: Guangxi Yaduo Youchuang Technology Co.,Ltd.
Priority date: 2014-09-22
Filing date: 2014-09-22
Publication date: 2015-01-07
Anticipated expiration: 2034-09-22
Also published as: CN104262530B

Abstract

The invention discloses an unmodified silica sol/polystyrene-acrylate nano core-shell emulsion and a preparation method thereof. Commercially available alkaline silica sol, styrene and acrylate monomers are taken as main raw materials, nano particles are not required to be subjected to tedious surface modification, and under the action of a reactive emulsifier, a seed monomer is subjected to in-situ polymerization on the surface of nano-SiO2, and then subjected to shell monomer polymerization, so that a high silica sol/polystyrene-acrylate nano core-shell polymer emulsion is formed, and the emulsion has various characteristics of small particle size, high silicon content, high covering rate, high stability and the like. The method is simple in production process and rapid in synthesis, and the obtained composite emulsion has an obvious nano core-shell composite structure, takes nano silicon dioxide as a core and takes acrylate as a shell; and the emulsion has good water resistance, stain resistance, heat resistance, acid and alkali resistance and the like, is environmental-friendly and fire-retardant, and has good transparency. The emulsion can be widely applied to various fields of coatings such as high-grade architectural coatings, electronic packaging materials, anti-corrosion coatings for ships, and the like.

Description

Unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion and preparation method thereof

Technical field

The invention belongs to environment-protection nano nucleocapsid water-based emulsion field, particularly relate to a kind of unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion and preparation method thereof.

Background technology

About the nano-material modified and existing many research of benzene emulsion preparation, but the effective ways of nano-material modified benzene emulsion are also less.Prepare composite emulsion by the method for physical blending in early days, coating is prepared as film forming binder, as: " nano inner wall coating " (application number 200810147407.1 publication date 2009-01-07), " a kind of nanometer silica sol modified exterior wall coating and preparation method thereof " (application number 201310331019.X publication date 2013-10-23), " a kind of antifouling imitative porcelain four-in-one coating " (application number 201310460051.8 publication date 2014-02-05), " a kind of Silica sol high-permeability multifunctional transparent finish-coat paint " (application number 201310688008.7 publication date 2014-04-16).This method technique is simple, but SiO ₂particle can not form effective interaction with polymer latex particles, and the package stability of blending emulsion is poor, to the improvement poor effect of emulsion property, mainly because nano particle can not get dispersed in benzene emulsion matrix.

Summary of the invention

The technical problem to be solved in the present invention is to provide that a kind of production technique is simple, the unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion of high-performance and low-cost, high clad ratio and preparation method thereof.

For solving the problems of the technologies described above, the present invention is by the following technical solutions: unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion, and unmodified silicon sol/Polystyrene-acrylate nano-core-shell structure take nanometer silicon dioxide particle as core, copolymer in cinnamic acrylic ester is shell; The solid content of emulsion is 30 ~ 60%, in silicon-dioxide, and SiO in emulsion ₂mass content be 10 ~ 25%.

Above-mentioned unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion, makes primarily of commercial available alkaline silicon sol, vinylbenzene and acrylic ester monomer.

The preparation method of above-mentioned unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion, with commercial available alkaline silicon sol, vinylbenzene and acrylic ester monomer for main raw material, under reactive emulsifier effect, make vinylbenzene and acrylic ester monomer at the SiO of non-modified ₂particle surface generation in-situ polymerization, obtains with SiO ₂for the seed emulsion of core, then carry out the polymerization of cinnamic acrylic ester shell on seed emulsion breast grain surface, to obtain final product.

The preparation method of above-mentioned unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion, comprises the following steps:

The preparation of <1> silicon sol/cinnamic acrylic ester seed emulsion

With commercial available alkaline silicon sol, vinylbenzene and acrylic ester monomer for main raw material, under reactive emulsifier effect, make vinylbenzene and acrylic ester monomer at the SiO of non-modified ₂particle surface generation in-situ polymerization, obtains seed emulsion;

The synthesis of the unmodified silicon sol of <2>/Polystyrene-acrylate nano core-shell emulsion

In seed emulsion, add non-reacted emulsifying agent, sodium carbonate, initiator, start at the uniform velocity to drip cinnamic acrylic ester class mix monomer and carry out shell polymerization, obtain unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion.

Commercial available alkaline silicon sol, in silicon-dioxide, the weight content of silicon is 30 ~ 50%, and median size is 10 ~ 30nm, and pH value is 9 ~ 10;

Acrylic ester monomer is two or more in methyl methacrylate, n-butyl acrylate, methacrylic acid, β-dimethyl-aminoethylmethacrylate, vinylformic acid;

Reactive emulsifier is one or both in allyloxy Nonylphenoxy propyl alcohol Soxylat A 25-7, allyloxy hydroxypropyl azochlorosulfonate acid sodium, allyloxy fatty alcohol oxygen Vinyl Ether ammonium sulfate, allyloxy Nonylphenoxy propyl alcohol polyoxyethylene ether ammonium sulfate;

Non-reacted emulsifying agent is anionic or nonionic emulsifier, and anionic emulsifier is one or both in sodium lauryl sulphate, sodium laurylsulfonate, Sodium dodecylbenzene sulfonate;

Initiator is ammonium persulphate.

The preparation method of above-mentioned unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion, is undertaken by following operation:

<1> seeded emulsion polymerization: the four-hole boiling flask that agitator, reflux condensing tube, thermometer and titration funnel are housed is placed in thermostat water bath, stirs, at N with 300 ~ 400r/min constant speed ₂under protection, count by weight, add 100 ~ 140 parts of deionized waters, 3 ~ 5 parts of reactive emulsifiers, add the commercial available alkaline silicon sol of 150 ~ 300 parts after 10 minutes, be uniformly dispersed; Be warming up to 75 DEG C gradually, and keep constant temperature, add 0.20 ~ 0.50 part of initiator, start titration 8 ~ 20 parts of cinnamic acrylic ester class mix monomers, within 10 ~ 30 minutes, drip off, and be incubated 1 hour, obtain seed emulsion;

<2> shell monomer polymerization: add 3 ~ 5 parts of non-reacted emulsifying agents in seed emulsion, 0.8 ~ 2.0 part of sodium carbonate, 0.4 ~ 0.8 part of initiator, start at the uniform velocity to drip 100 ~ 150 parts of cinnamic acrylic ester class mix monomers, within 2.5 ~ 3 hours, dropwise; Be warming up to 80 DEG C, insulation 1h after be cooled to room temperature, adjust pH to 8 ~ 8.5, filter discharging, the unmodified silicon sol of shallow white blueing/Polystyrene-acrylate nano core-shell emulsion.

Non-reacted emulsifying agent is dissolved in 10 parts of distilled water and makes solution and add, and sodium carbonate is dissolved in 10 parts of distilled water and makes solution and add, and initiator is dissolved in 10 parts of distilled water and makes solution and add.

For current environment-protection nano nucleocapsid water-based emulsion and prepare Problems existing, we have established the preparation method of a kind of unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion, that is: with commercial available alkaline silicon sol, vinylbenzene and acrylic ester monomer for main raw material, without the need to carrying out loaded down with trivial details surface modification treatment to nanoparticle, under reactive emulsifier effect, based on multiple mechanisms such as interface medium, electrostatic adhesion, adopt special seeding polymerization technique, make vinylbenzene and acrylic ester monomer at the SiO of non-modified ₂particle surface generation in-situ polymerization, obtains with SiO ₂for the seed emulsion of core, then the polymerization of cinnamic acrylic ester shell is carried out on seed emulsion breast grain surface, the composite polymer particle that to obtain take nanometer silicon dioxide particle as core, copolymer in cinnamic acrylic ester is shell, synthesizes the unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion of excellent performance.

Method production technique of the present invention is simple, synthesis fast, composite polymer particle has obvious nano core-shell composite structure, the little and narrowly distributing (60 ~ 80nm) of particle diameter.Unmodified silicon sol/Polystyrene-acrylate nano core-shell the emulsion of synthesis is due to features such as particle diameter is little, silicone content high (accounting for the 40-50% of total dry film quality), nucleocapsid covering property are good, good stabilities, its film is had performances such as high transparent, water tolerance, hardness are high, strong adhesion, there is the performances such as good contamination resistance, thermotolerance, acid and alkali-resistance simultaneously, and environmental protection, difficult combustion, be a kind of high-performance, low cost new environment-protection nano nucleocapsid water-based emulsion.Therefore, this emulsion is widely used in the multiple coating fields such as top-grade building coating, metal protection coating, boats and ships protective system as filmogen.The novel nano composite water soluble exterior coating product properties developed accordingly meets the technical requirements in water-based exterior wall paint GB GB/T9755-2001 more than premium grads, especially water-fast, resistance to acids and bases, resistance to soiling, artificial ageing resistance are extremely excellent.Due to the use of high content silicon colloidal sol, the present invention greatly saves petroleum resources, with low cost, not only meets the requirement of performance but also meet the demand of modern environmental protection development.

Accompanying drawing explanation

Fig. 1 is the transmission electron microscope picture of the unmodified silicon sol of the present invention/Polystyrene-acrylate nano core-shell composite polymer particle.

Embodiment

Embodiment 1

<1> seeded emulsion polymerization: the four-hole boiling flask that agitator, reflux condensing tube, thermometer and titration funnel are housed is placed in thermostat water bath, stirs, at N with 400r/min constant speed ₂under protection, count by weight, add 100g deionized water, 3g reactive emulsifier allyloxy Nonylphenoxy propyl alcohol Soxylat A 25-7, the commercial available alkaline silicon sol of 150g is added (in silicon-dioxide after 10 minutes, the weight content of silicon is 30%, median size is 10nm, and pH value is 9), be uniformly dispersed; Be warming up to 75 DEG C gradually, and keep constant temperature, add 0.20g ammonium persulphate (be dissolved in 10g distilled water make solution add), start titration 8g cinnamic acrylic ester class mix monomer (positive butyl ester/methyl methacrylate/acrylic acid=47/49/3/1 of styrene/acrylic, mass ratio), within 10 minutes, drip off, and be incubated 1 hour, obtain seed emulsion;

<2> shell monomer polymerization: add the non-reacted emulsifier sodium lauryl sulfate of 3g (be dissolved in 10g distilled water make solution add) in seed emulsion, 0.8g sodium carbonate (be dissolved in 10g distilled water make solution add), 0.4g ammonium persulphate (be dissolved in 10g distilled water make solution add), start at the uniform velocity to drip 100g cinnamic acrylic ester class mix monomer (positive butyl ester/methyl methacrylate/acrylic acid=47/49/3/1 of styrene/acrylic, mass ratio), within 2.5 hours, dropwise; Be warming up to 80 DEG C, insulation 1h after be cooled to room temperature, adjust pH to 8, filter discharging, the unmodified silicon sol of shallow white blueing/Polystyrene-acrylate nano core-shell emulsion.

After testing, this routine emulsion appearance is that blueing is translucent, and median size is 30nm.

Embodiment 2

<1> seeded emulsion polymerization: the four-hole boiling flask that agitator, reflux condensing tube, thermometer and titration funnel are housed is placed in thermostat water bath, stirs, at N with 300r/min constant speed ₂under protection, count by weight, add 140g deionized water, 5g reactive emulsifier allyloxy hydroxypropyl azochlorosulfonate acid sodium, the commercial available alkaline silicon sol of 300g is added (in silicon-dioxide after 10 minutes, the weight content of silicon is 50%, median size is 30nm, and pH value is 10), be uniformly dispersed; Be warming up to 75 DEG C gradually, and keep constant temperature, add 0.50g ammonium persulphate (be dissolved in 10g distilled water make solution add), start titration 20g cinnamic acrylic ester class mix monomer (positive butyl ester/β-dimethyl-aminoethylmethacrylate/methacrylic acid=46/47/4/3 of styrene/acrylic, mass ratio), within 20 minutes, drip off, and be incubated 1 hour, obtain seed emulsion;

<2> shell monomer polymerization: add the non-reacted emulsifying agent Sodium dodecylbenzene sulfonate of 6g (be dissolved in 10g distilled water make solution add) in seed emulsion, 2.5g sodium carbonate (be dissolved in 10g distilled water make solution add), 0.8g ammonium persulphate (be dissolved in 10g distilled water make solution add), start at the uniform velocity to drip 150g cinnamic acrylic ester class mix monomer (positive butyl ester/β-dimethyl-aminoethylmethacrylate/methacrylic acid=46/47/4/3 of styrene/acrylic, mass ratio), within 3 hours, dropwise; Be warming up to 80 DEG C, insulation 1h after be cooled to room temperature, adjust pH to 8, filter discharging, the unmodified silicon sol of shallow white blueing/Polystyrene-acrylate nano core-shell emulsion.

Embodiment 3

<1> seeded emulsion polymerization: the four-hole boiling flask that agitator, reflux condensing tube, thermometer and titration funnel are housed is placed in thermostat water bath, stirs, at N with 300r/min constant speed ₂under protection, count by weight, add 120g deionized water, 4g reactive emulsifier allyloxy fatty alcohol oxygen Vinyl Ether ammonium sulfate, the commercial available alkaline silicon sol of 250g is added (in silicon-dioxide after 10 minutes, the weight content of silicon is 40%, median size is 20nm, and pH value is 9), be uniformly dispersed; Be warming up to 75 DEG C gradually, and keep constant temperature, add 0.30g ammonium persulphate (be dissolved in 10g distilled water make solution add), start titration 15g cinnamic acrylic ester class mix monomer (positive butyl ester/vinylformic acid=48/48/4 of styrene/acrylic, mass ratio), within 20 minutes, drip off, and be incubated 1 hour, obtain seed emulsion;

<2> shell monomer polymerization: mixture (the mass ratio 1:1 adding the non-reacted emulsifying agent sodium laurylsulfonate of 4g and Sodium dodecylbenzene sulfonate in seed emulsion, be dissolved in 10g distilled water to make solution and add), 1.3g sodium carbonate (be dissolved in 10g distilled water make solution add), 0.6g ammonium persulphate (be dissolved in 10g distilled water make solution add), start at the uniform velocity to drip 130g cinnamic acrylic ester class mix monomer (positive butyl ester/vinylformic acid=48/48/4 of styrene/acrylic, mass ratio), within 2.5 hours, dropwise, be warming up to 80 DEG C, insulation 1h after be cooled to room temperature, adjust pH to 8, filter discharging, the unmodified silicon sol of shallow white blueing/Polystyrene-acrylate nano core-shell emulsion.

After testing, this routine emulsion appearance is that blueing is translucent, and median size is 65nm.

Embodiment 4

Substantially the same manner as Example 1, in the seeded emulsion polymerization of only step <1>, reactive emulsifier changes allyloxy Nonylphenoxy propyl alcohol polyoxyethylene ether ammonium sulfate into.

Embodiment 5

Substantially the same manner as Example 1, in the shell monomer polymerization of only step <2>, non-reacted emulsifying agent changes Sodium dodecylbenzene sulfonate into.

Embodiment 6

Substantially the same manner as Example 1, in the shell monomer polymerization of only step <2>, non-reacted emulsifying agent changes the mixture (mass ratio 1:1) of sodium lauryl sulphate and sodium laurylsulfonate into.

Carry out fundamental property detection to the unmodified silicon sol of embodiment 1-6 gained/Polystyrene-acrylate nano core-shell product emulsion, result is as table 1 and Fig. 1.

Table 1 emulsion fundamental property index

Fig. 1 shows, and the particle size analysis in composite emulsion of the present invention is 60 ~ 80nm, is take nanometer silicon dioxide particle as core (internal layer aterrimus), the clad structure that polymkeric substance (outer light grey) is shell, dispersed splendid.

Claims

1. unmodified silicon sol/Polystyrene-acrylate nano core-shell emulsion, is characterized in that: described unmodified silicon sol/Polystyrene-acrylate nano-core-shell structure take nanometer silicon dioxide particle as core, copolymer in cinnamic acrylic ester is shell; The solid content of described emulsion is 30 ~ 60%, in silicon-dioxide, and SiO in emulsion ₂mass content be 10 ~ 25%.

2. unmodified silicon sol according to claim 1/Polystyrene-acrylate nano core-shell emulsion, is characterized in that: make primarily of commercial available alkaline silicon sol, vinylbenzene and acrylic ester monomer.

3. the preparation method of unmodified silicon sol described in claim 1/Polystyrene-acrylate nano core-shell emulsion, it is characterized in that: with commercial available alkaline silicon sol, vinylbenzene and acrylic ester monomer for main raw material, under reactive emulsifier effect, make vinylbenzene and acrylic ester monomer at the SiO of non-modified ₂particle surface generation in-situ polymerization, obtains with SiO ₂for the seed emulsion of core, then carry out the polymerization of cinnamic acrylic ester shell on seed emulsion breast grain surface, to obtain final product.

4. the preparation method of unmodified silicon sol according to claim 3/Polystyrene-acrylate nano core-shell emulsion, is characterized in that comprising the following steps:

The preparation of <1> silicon sol/cinnamic acrylic ester seed emulsion

5. the preparation method of unmodified silicon sol according to claim 4/Polystyrene-acrylate nano core-shell emulsion, is characterized in that:

Described commercial available alkaline silicon sol, in silicon-dioxide, the weight content of silicon is 30 ~ 50%, and median size is 10 ~ 30nm, and pH value is 9 ~ 10;

Described acrylic ester monomer is two or more in methyl methacrylate, n-butyl acrylate, methacrylic acid, β-dimethyl-aminoethylmethacrylate, vinylformic acid;

Described reactive emulsifier is one or both in allyloxy Nonylphenoxy propyl alcohol Soxylat A 25-7, allyloxy hydroxypropyl azochlorosulfonate acid sodium, allyloxy fatty alcohol oxygen Vinyl Ether ammonium sulfate, allyloxy Nonylphenoxy propyl alcohol polyoxyethylene ether ammonium sulfate;

Described non-reacted emulsifying agent is anionic or nonionic emulsifier, and anionic emulsifier is one or both in sodium lauryl sulphate, sodium laurylsulfonate, Sodium dodecylbenzene sulfonate;

Described initiator is ammonium persulphate.

6. the preparation method of unmodified silicon sol according to claim 5/Polystyrene-acrylate nano core-shell emulsion, is characterized in that being undertaken by following operation:

The four-hole boiling flask that agitator, reflux condensing tube, thermometer and titration funnel are housed is placed in thermostat water bath by <1>, stirs, at N with 300 ~ 400r/min constant speed ₂under protection, count by weight, add 100 ~ 140 parts of deionized waters, 3 ~ 5 parts of reactive emulsifiers, add the commercial available alkaline silicon sol of 150 ~ 300 parts after 10 minutes, be uniformly dispersed; Be warming up to 75 DEG C gradually, and keep constant temperature, add 0.20 ~ 0.50 part of initiator, start titration 8 ~ 20 parts of cinnamic acrylic ester class mix monomers, within 10 ~ 30 minutes, drip off, and be incubated 1 hour, obtain seed emulsion;

<2> adds 3 ~ 5 parts of non-reacted emulsifying agents in seed emulsion, 0.8 ~ 2.0 part of sodium carbonate, 0.4 ~ 0.8 part of initiator, starts at the uniform velocity to drip 100 ~ 150 parts of cinnamic acrylic ester class mix monomers, within 2.5 ~ 3 hours, dropwises; Be warming up to 80 DEG C, insulation 1h after be cooled to room temperature, adjust pH to 8 ~ 8.5, filter discharging, the unmodified silicon sol of shallow white blueing/Polystyrene-acrylate nano core-shell emulsion.

7. the preparation method of unmodified silicon sol according to claim 5/Polystyrene-acrylate nano core-shell emulsion, it is characterized in that: described non-reacted emulsifying agent is dissolved in 10 parts of distilled water and makes solution and add, described sodium carbonate is dissolved in 10 parts of distilled water and makes solution and add, and described initiator is dissolved in 10 parts of distilled water and makes solution and add.